Subsurface materials management and containment system

Hydraulic and earth engineering – Subterranean waste disposal – containment – or treatment – Waste barrier – containment – or monitoring

Reexamination Certificate

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Details

C405S129600, C405S129800, C405S276000, C405S279000, C405S281000

Reexamination Certificate

active

06758634

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates generally to methods, components and systems for in situ containment and management of buried waste, contaminated media, and their associated components. Also these methods and devices can be utilized for resource recovery. More particularly, embodiments of the present invention relate to an improved barrier, as well as to its installation and use, for reliably containing and managing leachate, gas phase contaminants, and the like, originating from a zone of interest.
BACKGROUND
Containment, management, and disposal of various types of waste are longstanding problems. Early waste management and disposal systems were primitive, as there were few or no disposal or environmental regulations in place at the time. In countless instances, the waste was simply buried underground. The volume of waste that has been buried is tremendous. Some experts estimate that landfills in the United States alone hold more than 3 million cubic meters of buried waste. Further, much of the waste that was buried comprises heavy metals such as mercury and cadmium, carcinogenic materials such as trichloroethylene, radioactive materials, and other hazardous substances.
While burial and similar approaches produced an aesthetically pleasing result by removing the waste from sight, it was soon discovered that effluent from the buried waste was working its way through the soil and into the groundwater. This process is commonly known as leaching. Because groundwater is a major source of water for drinking and for agriculture, contamination of the groundwater by leaching is a major concern.
The contamination caused by buried waste is not limited solely to groundwater however. At least some of the contaminated groundwater finds its way into waterways such as streams, rivers, and lakes, thus polluting those waterways and poisoning the plant and animal life. Obviously, polluted waterways pose a threat to humans as well, particularly in the case of waterways and bodies of water used for recreational purposes and/or as a source of drinking water.
Not all of the cases of groundwater pollution arise from the leaching of chemicals from waste sources. In some cases, the waste is buried in the path of the groundwater, and as groundwater flows through the waste, it collects various chemicals and toxins from the waste and deposits those chemicals and toxins in other soils and waterways.
While many of the problems associated with buried waste concern the effect of leachate on groundwater, buried waste also typically emits gas phase contaminants that must likewise be contained and managed. Such gas phase contaminants can also pollute the soil and the groundwater, and may build up to unsafe pressures which could ultimately result in explosion and/or atmospheric venting of the gas.
Clean soil and groundwater are important to human, plant, and animal life as well as to the environment in general. Accordingly, a variety of methods and devices have been devised to attempt to resolve the problems induced by buried waste. These remedies can be broadly grouped into the categories of remediation and containment. Remediation remedies focus on processes designed to change the chemical composition of a contaminated material or contaminant to one more benign, while containment remedies seek to eliminate the pollution problem by removing or isolating the contaminants and contaminated material from the surrounding area.
Remediation approaches such as biological treatments, thermal processes and chemical processes are problematic for a variety of reasons. In particular, many of these remediation techniques are expensive and potentially hazardous. Further, it is difficult to verify the effectiveness of many of the treatments and remediation-type approaches may not be appropriate for all types of contaminated material. Finally, determining the proper remediation technique is, in itself, a complex and time-consuming process, particularly in view of the web of regulations and procedures that govern such treatments.
Containment, barrier, or in situ, approaches are problematic as well. One known containment approach is simply to dig up and remove the contaminated soil for treatment and/or disposal. This approach is expensive and time-consuming and often accomplishes little more than moving the problem to another location. Other containment approaches involve installing vertical and/or horizontal barriers around the buried waste. In theory, this approach is attractive because it does not involve digging up or otherwise disturbing the buried waste.
However, conventional containment or barrier systems suffer from a variety of inadequacies including lack of durability, continuity and integrity. These inadequacies are a function of numerous factors associated with the environment in which the containment or barrier systems are located including, but not limited to: exposure to harsh chemicals such as concentrated saline solutions, and saturated calcite and gypsum solutions; exposure to extreme thermal gradients such as are typically experienced in freeze/thaw zones; and exposure to stresses induced by shifting in the earth.
Hydraulic conductivity, which is the rate at which a fluid or hazardous substance flows through a barrier, is unacceptably high in some barrier systems while other conventional barrier systems are not particularly well-suited to a variety of soil conditions such as hard rock and sand. A further flaw is that many barrier systems do not provide methods for evaluating the integrity of the barrier during and after installation, which is complicated by the fact that many barrier systems also lack provision for long term monitoring of the containment zone and any leachate therefrom. The inability to monitor a barrier system that is isolating hazardous waste is unacceptable because of the potential harm that can be caused to the surrounding environment. The lack of durability, continuity and integrity in known containment systems has a significant detrimental effect on the performance of those systems and the effectiveness of those containment and barrier systems cannot be readily determined or evaluated.
Accordingly, what is needed are improved in situ containment systems and methods for installing these systems. A containment system that is capable of containing, collecting and/or processing effluent which would otherwise escape from a zone of interest, wherein such effluent includes, but is not limited to, leachate, gas phase contaminants, waste, water, and any other material that is desired to be contained, collected, and/or processed would be advantageous.
BRIEF SUMMARY OF THE INVENTION
The present invention includes systems and methods relating to subterranean containment barriers. Tubular casings having male interlock structures and cooperative multiple female interlock recesses are used to create subterranean barriers for containing and treating buried waste and its effluents. The multiple interlocks allow the barriers to be varied in placement around subsurface objects and to form barrier sidewalls. The barrier may be used for treating and monitoring a zone of interest including contaminants.
Casing sections are interlocked to adjacent sections using the male interlocking structures and cooperative female interlock recesses. A sealant is disposed in the recess. Sealants may disposed prior to connecting adjacent casing sections, or after the interlock is formed. Thermoplastic sealants may be used to enable resealing in the event of a breach by reheating to reestablish the seal.
Methods of constructing the barrier include methods for reducing the intrusion of foreign matter into the interlocks during construction by blocking, methods of collecting and containing contaminants using the barrier structures. The components may also be used to treat zones of interest by removing contaminants therefrom, or introducing desired materials thereinto.


REFERENCES:
patent: 910421 (1909-01-01), Schlueter
patent: 2101285 (1937-12-01), Stevens
patent: 3411305 (1968-11-01), Cella
patent: 46326

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